The pressure `p` of a gas is plotted against its absolute temperature `T` for two different constant volumes, `V_(1)` and `V_(2)` when `V_(1) gt V_(2)`, the

The pressure p of a gas is plotted against its absolute temperature T for two different constant volumes V_(1) and V_(2) where V_(1) gt V_(2) . P is plotted on the y-axis and T on the x-axis

The pressure P of a gas is plotted against its absolute temperature T for two different constant volumes, V_(1) and V_(2) (for same no. of moles) where V_(1) gt V_(2) , the correct statement is:

The pressure p for a gas is plotted against its absolute temperature T for two different volumes V_(1) and V_(2) . If p is plotted on y- axis and T on x- axis, then

A plot of P vs T for a given mass of gas at constant volume is a straight line . P vs T at constant volumes V_(1) and V_(2) for an ideal gas are shown below : Which of the following is correct ?

A plot of P vs T for a given mass of gas at constant volume is a straight line . P vs T at constant volumes V_(1) and V_(2) for an ideal gas are shown below : Which of the following is correct ?

An ideal gas in a thermally insulated vessel at internal pressure =P_(1) , volume =V_(1) and absolute temperature =T_(1) expands irreversibly against zero external pressure, as shown in the diagram. The final internal pressure, volume and absolute temperature of the gas are P_(2), V_(2) and T_(2) respectively. For this expansion.

An ideal gas in a thermally insulated vessel at internal pressure =P_(1) , volume =V_(1) and absolute temperature =T_(1) expands irreversibly against zero external pressure, as shown in the diagram. The final internal pressure, volume and absolute temperature of the gas are P_(2), V_(2) and T_(2) respectively. For this expansion.

An ideal gas in thermally insulated vessel at internal (pressure)=P_(1), (volume)=V_(1) and absolute temperature = T_(1) expands irreversiby against zero external, pressure , as shown in the diagram, The final internal pressure, volume and absolute temperature of the gas are p_(2), V_(2) and T_(2) , respectively . For this expansion